An introduction of a novel wavelet transformation method based on fast lifting algorithm and steps of accomplishment is described in some more detail.
介绍了快速提升小波变换的原理和实现步骤,提出了一种基于提升算法的快速小波变换确定电位滴定终点新方法。
To solve the difficulties in dim target detection, such as low SNR and small-scale displacement, a new automatic target detection algorithm based on lifting scheme and wavelet energy is proposed.
针对图像序列中红外弱小目标的检测与跟踪中遇到的难点,即信噪比低、帧间相对位移小等问题,提出一种基于小波提升框架及小波能量的目标检测算法。
According to the characteristics of PDF417 and the lifting wavelet transform, a digital image watermark algorithm based on PDF417 and lifting wavelet is proposed in this paper.
根据PDF417与提升小波变换的特点,提出一种基于PDF417和提升小波变换的数字图像水印算法。
Finally, the bit lifting on ROI is combined with SPIHT algorithm, accomplishing the image coding.
最后,将感兴趣区域比特位提升与SPIHT编码算法结合,完成了图像的压缩编码。
Being as the second-generation wavelet with the special algorithm structure, the lifting wavelet is proposed for improving the operation speed of traditional wavelet.
而提升小波作为第二代小波,以其独特的算法结构、快速运算能力和低存储需求等优点受到信息科学领域的广泛关注。
The advantages of wavelet transform constructed with lifting scheme are introduced and compression algorithm based on lifting wavelet for SAR raw data is proposed.
该文介绍了提升方法构造小波变换的优点,结合SAR原始数据的特点,提出了基于提升小波变换的SAR 原始数据压缩算法。
Firstly, the detection theory of lining and lifting is briefly introduced and the principle and algorithm of compensation are analysed.
首先简单介绍了捣固车起拨道检测的原理,分析了起拨道补偿原理与补偿算法设计。
The study of model identification is analyzed based on the lifting technology and the traditional system identification algorithm.
提升技术现已成为采样控制系统分析和设计的主要工具。
Simulation experiments show that the control algorithm has better dynamical characteristics which can greatly improve control performance of phase lifting system and enhance production efficiency.
仿真实验表明,该控制算法具有良好的动态特性,可大大改善电极升降系统的控制效果,提高生产效率。
Simulation experiments show that the control algorithm has better dynamical characteristics which can greatly improve control performance of phase lifting system and enhance production efficiency.
仿真实验表明,该控制算法具有良好的动态特性,可大大改善电极升降系统的控制效果,提高生产效率。
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